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Between 1982 and 1999, the climate became warmer, wetter, and sunnier in many parts of the world. These changes increased the overall productivity of land plants by 6 percent. This map shows productivity increases during the time period in green, while decreases are shown in brown. Productivity, which is the net uptake of carbon, increased the most in tropical regions, where climate change resulted in fewer clouds and more sunlight. Credit: NASA Earth ObservatoryHigh resolution image link

Caption for Image 2: 20 years of change (1980-2000)

Nearly 20 years of satellite observations of net primary productivity reveal the seasonal and yearly cycles of Earth's vegetation. In this animation, the dominant theme is the shift in productivity (shades of green) between the Northern and Southern Hemisphere over the course of a year. Hidden within this dominant cycle are more subtle vegetation patterns: a decrease in productivity at high latitudes of the Northern Hemisphere following the eruption of Mt. Pinatubo in 1991, as well as global-scale decreases in productivity during the El Niño events of 1982-83, 1987-88, and 1997-98. Credit: NASA Earth ObservatoryLink to high res 1999 NPP image

Caption for Image 5: NASA's Sea-viewing Wide Field-of-view Sensor (SeaWiFS) aboard the OrbView-2 satellite has been collecting data on plant productivity and the carbon cycle since 1997. This colorful globe is a three-year map of continuous data showing fluctuating areas of successful photosynthesis on land and in the oceans.
Credit: NASA/ORBIMAGEHigh Resolution image link

Caption for Image 6:
The following animation shows three years of continuous SeaWiFS data (1997-2000) on a flat map of the Earth. The smooth migration of green areas over time is a reflection of seasonal changes in temperature and moisture. Credit: NASA/ORBIMAGEHigh Resolution image link

A NASA-Department of Energy jointly funded study concludes the Earth has been greening over the past 20 years. As climate changed, plants found it easier to grow.

The globally comprehensive, multi-discipline study appears in this week's Science magazine. The article states climate changes have provided extra doses of water, heat and sunlight in areas where one or more of those ingredients may have been lacking. Plants flourished in places where climatic conditions previously limited growth.

"Our study proposes climatic changes as the leading cause for the increases in plant growth over the last two decades, with lesser contribution from carbon dioxide fertilization and forest re-growth," said Ramakrishna Nemani, the study's lead author from the University of Montana, Missoula, Mont.

From 1980 to 2000, changes to the global environment have included two of the warmest decades in the instrumental record; three intense El Niño events in 1982-83, 1987-88 and 1997-98; changes in tropical cloudiness and monsoon dynamics; and a 9.3 percent increase in atmospheric carbon dioxide (CO2), which in turn affects man-made influences on climate. All these changes impact plant growth.

Another co-author, Charles Keeling, Scripps Institution of Oceanography, La Jolla, Calif., cautions no one knows whether these positive impacts are due to short-term climate cycles, or longer-term global climate changes. Also, a 36 percent increase in global population, from 4.45 billion in 1980 to 6.08 billion in 2000, overshadows the increases in plant growth.

Image 4

Nemani and colleagues constructed a global map of the Net Primary Production (NPP) of plants from climate and satellite data of vegetation greenness and solar radiation absorption. NPP is the difference between the CO2 absorbed by plants during photosynthesis, and CO2 lost by plants during respiration. NPP is the foundation for food, fiber and fuel derived from plants, without which life on Earth could not exist. Humans appropriate approximately 50 percent of global NPP.

NPP globally increased on average by six percent from 1982 to 1999. Ecosystems in tropical zones and in the high latitudes of the Northern Hemisphere accounted for 80 percent of the increase. NPP increased significantly over 25 percent of the global vegetated area, but decreased over seven percent of the area; illustrating how plants respond differently depending on regional climatic conditions.

Image 5

Click on image for animation.

Climatic changes, over approximately the past 20 years, tended to be in the direction of easing climatic limits to plant growth. In general, in areas where temperatures restricted plant growth, it became warmer; where sunlight was needed, clouds dissipated; and where it was too dry, it rained more. In the Amazon, plant growth was limited by sun blocking cloud cover, but the skies have become less cloudy. In India, where a billion people depend on rain, the monsoon was more dependable in the 1990s than in the 1980s.

The climate data for NPP calculations came from the National Oceanic and Atmospheric Administration (NOAA) National Center for Environmental Prediction. Researchers used two independently derived 18-plus-year satellite datasets from the Advanced Very High Resolution Radiometers on NOAA satellite. The team processed and improved the data at GSFC and BU.

Image 6

Click on image for animation.

"Systematic observation of global vegetation is being continued by NASA's Earth observing satellites. Earth observing satellites are paving the way to find out if these biospheric responses are going to hold for the future," adds Steve Running, another co-author from the University of Montana.

NASA's Earth Science Enterprise is committed to studying the primary causes of the Earth system variability, including both natural and human-induced causes.